Liquid dispensing device



a hets-5heet 1 G. S C ZOX ET AL Filed July 26, 1929 LIQUID DISPENSING DEVICE March 29, 1932.

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LIQUID DISPENS ING DEVICE Filed July 26, 1929 BSheets-Sheet 8 ATTOoQb/EK set up. In other words, the tube *setupmeans can be turned in one direction only supply a customer more liquid at one oper- V Patented Mar, as, was

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GEORGE sis-Tsar c er cs I s. coxv AND nuns! J. anns'rnnr, 015' sr. LOUIS,'MISSOUBI,$ASSIGNOBS 'rornonuo'rron" GOIXEEANY; or 1ST... LOUIS, MISSOURI; A oonnon-a'rrou or DELAWARE LIQUID DISPENSILVTG DEVICE Application filed. my 26, 1929. Serial No. 381,173.

Our inventionrelates to improvements in liquid dispensing devices, and has for its primary object a dispensing device which is so, arranged that no cheating by an employee either of a customer or the proprietor of anest-ablishment where such a device is used, is possible. Y j v A further object is to construct a dispens ing device which employs a transparent bowl having dispensing tube which is raised above the bottom thereof so as to set up the device for a predetermined unit quantity of liquid and inwhich the tube is so arranged that no dispensing can take place unless a. quantity of. liquid equal to the set-up has been supplied to the bowl.

A further objectis to construct a liquid dis pensing device'which has a vertically adjust able dispensing tubelocated in a transparent bowl and in which the dispensing'tube is so controlled that after the tube-hasbeen raised for a predetermined set-up, it cannot again be lowered by the means through which it was until after the tube has been lowered by a means other than the setting up means.

A still furtl er obj e'ct is'to construct a liquid dispensingdevice having a pump to supply liquid to a transparent bowl and in which the pump is automatically locked against operation as soon as dispensing commences and remains locked until a new set-up of at least 7 one quantity unit has been made thereby pre venting the operator from supplying additional'hquid to the bowl. after dispensing has commenced so that it will be impossible to ation than the set-up calls for. a Afu'rther object is to constructa dispensingdevice in which a pump for supplying the liquid to a transparent bowl isautomatically 'loclted'as soon as liquid dispensing commences. and is automatically unlockedupon making a new set-up. 1

A still further object is to construct a liq.- uid dispensing device having a transparent bowl in which a vertically adjustable dispensing tube is used and in which means is provided for lowering the dispensing tube 'penslng mechan sm;

step bys-tep so that the liquid in the bowl will be di pensed unit by unit as the dispens ing tube is lowered, the dispensing tubebeing provided with a locking means to prevent itbeing lowered unless an amount of .55 liquid equal to the set-up. has been'supplied to thebowl In this way it is impossiblefor' the person dispensing liquid to make a set v up. say for eight units, then supply only five liquid units to the customer, and still lead the'customer' to believe that belies received eight units if he has observed the set-up made in the bowl. I I

A further object is toconstruct a liquid dispensing device as aforementioned in which i the pump used for supplying liquid to the bowl is automatically locked as'soon as dis? pensing commences and "cannot again be unlocked until a new set-up has been made.

This prevents the operator from favoring certain customers bysupplying additional liquid to the bowl during the dispensing. v other words. by our construction the exact quantity of liquids indicated by the set-up in 1 the bowl must be supplied before the dispensing operation can commence and it will. be impossible to supply additional liquid to the bowl after dispensing for a. predator: mined set-up has commenced untilthat quantity of liquid has been drainedfrom. the bowl and a newset-up made. v v

A still further ob'j-ect'is to construct a liquid dispensing device having a vertically moving dispensing tube, which is designed to beset up for a predetermined quantity of liquid in a transparent; bowl in which the means used for making this set-up is auto- I matically locked so that no loweringof the tube'can be had or done by this, means until: the tube has been lowered to its utmostextent by a separate means and which lowerin gto this position will automatically unlock the set-up operating ,means so that it can be I returned tov its original position and ready for making a new set-up.

In the drawings I Fig. 1 is a fragmental vertical section of our device showing certain-portions oftheh set-up mechanism, dispensing tube, and dis Fig. 2 is a similar view but taken on a plane at right angles to the section of Fig. 1;

Fig. 3 is a vertical fragmental section of the base of the dispensing device and is a continuation of Fig. 1;

Fig. 4 is a vertical fragmental sectional view of the base and is a continuation of Fig. 2, this view showing the locking mechanismdor the pump in position;

Fig. 5 is a horizontal section line 55 of Fig. 1;

Fig. 6 is an enlarged fragmental view with parts in section of a dual control device e1nployed in connection with the dispensing mechanism;

Fig. 7 is an enlarged fragment-a1 view of a portion of the lever mechanism employed in the dispensing operation;

Fig. 7 a is an enlarged view of the operating taken on the means by which the dispensing and residue draining levers and the pump lock operating trigger are operated;

Fig. 8 is an enlarged section taken on the line 88 of Fig. 1 showing the dispensing tube and its locking mechanism.

Fig. 9 is an enlarged fragmental view of the mechanism employed for locking the dispensing tube against downward movement;

Fig. 10 is a section taken on the line 1010 of Fig. 9;

Fig. 11 is an enlarged rear view of a portion of the mechanism used for raising the dispensing tube showing the locking means and its manner of operation;

F ig.,12 is an enlarged vertical fragmental view of the dispensing tube set-up mechanism;

Fig. 13 is a side elevation of the mechanism disclosed in Fig. 11;

Fig. 14 is an enlarged fragmental sectional view of the locking means taken on the line 14-14 of Fig. 12;

Fig. 15 is an enlarged perspective View of the bracket employed for holding the dispensing tube locking mechanism;

Fig. 16 is an enlarged fragmental view of the stop adjusting mechanism for controlling the unit by unit dispensing of the liquid and taken on the line 1616 of Fig. 17;

Fig. 17 is a. face view of the rack and stop looking in the direction of the arrow 17 of Fig. 16;

Fig. 18 is a fragmental view with parts in section of the pump locking mechanism showing the same in locked position;

Fig. 19 is a similar view showing the same in unlocked position;

Fig. 20 is a view looking in the direction of the arrow 20-of Fig. 19 showing the mechanism employed for releasing the locking mechanism so as to lock the pump when dispensmg commences;

Fig. 21 is a fragmental elevation with parts in section of the dispensing valve control mechanism; 9

Fig. 22 is a side view of the dual control lever mechanism employed in releasing the dispensing tube;

Fig. 23 is a side view of the lever mechanism employed in controlling the dispensing and residue valves;

Fig. 24 is an end view of the same; and

Fig. 25 is a. longitudinal section of the nozzle showing the air valve which controls the dispensing valve operating mechanism.

In carrying out our invention we employ a standard 30, on the top of which is secured aplate 31. Thisplat-eis provided witharecess 32 of circular shape to receive the lower end of a transparent dispensing bowl 33. The upper end of the dispensing bowl 33 is designed to fit into a cap 34. Rods 35 secure the plate 31 and cap 34 together thereby holdin the bowl securely in position. The standar 30 is mounted on a base 36. Located within the bowl 33 are standards 37 which carry in dicating numerals 38. These indicating numerals are arranged, to be set up as indicated in Figs. 1 and 2 when a setup for a predetermined amount of liquid units within the bowl is made and are designed to be lowered as the dispensing takes place. The peculiar construction and mode of operating these numerals or indicating symbols has been fully explained in an application filed by us on November 5, 1928, Serial No. 317,166.

Extending upward into the bowl is a liquid supply tube 39, its lower end being connected to a pump 40, which pump is located in the standard 30. The pump has also connected thereto a pipe 41, which leads to some suitable source of liquid supply. preferably an underground tank although this is not essential except in the case where inflammable fluids or liquids are dispensed and where the underwriters rulings call for such storage tanks to be placed under ground.

The pump is provided with a pump rod 42 which is attached to one end of a link 43, the opposite end of the link 43 being attached to a lever 44 and adjacent one end thereof. The opposite end of the lever 44 is carried by a shaft 45, which projects through the standard 30 and is provided on its projecting end with a handle 46 by means of which the lever 44 can be moved up and down thus operating the pump. The rod or shaft is also provided with a dog 47 which has a tooth 48. The purpose of this tooth is to lock the pump and operating handle against movement. This will be explained in detail later.

Extending upward into the transparent bowl is a dispensing tube 49. This tube has its lower end secured to a rod 50, which rod in turn is secured to an arm 51 forming part of a yoke 52. The yoke 52 is slidably mounted on shafts or standards 53 and 54. That part of the yoke surrounding the standard 54 has an upwardly extending portion 55 to which one end of a rack 56is secured, the op posite end of the rack 56 being secured to theyoke'52.

' Meshing with the rack 56 is a gear 57. The gear 57 is mounted on a sleeve 58 which iscar-' ried by, the standard 30. The method of formed in the plate 61.

handle to turn and at the same time imparts motion to the gear 57, and the turning of this gear 57 meshing with the rack 56 raises mounting this sleeve is clearly shown in Fig- 12... :The sleeve is so mounted that itcannot rotate in the casing 30, being held by a lock nut 58a. The gear 57 is loosely mounted on the reduced end 59. ofthe sleeve. I e

Theouter endof the sleeve 58 is provided with a flange 60 to which is secured a plate 61. This plate has various openings therein so that a pin 62 carried by the handle 63 can enter therein. The handle 63 is carried by a lug 6a, which is attached to a rotatable plate 65*carried by the indicator plate 61.

Passing through the sleeve 58 is ashaft 66; which is pivotally secured at a point 67 to the handle To the opposite end of the shaft 66 is secured a ratchet wheel 68 which ratchet wheel is provided with a projecting.

tooth 69 on the face adjacent the'pinion 67. The pinion 67 is also provided with a tooth or projection 70. r I

Interposed between the ratchet wheel 68 and gear 57 is a spring 71 which has a nor-' mal tendency to force the, ratchet away from c the pinion 57 so that the tooth 69 will pass the projection and in order to cause the pinion57 to turn, it is necessaryto pull forward; on the handle 63, compressing the spring ,71 so that the tooth 69 can engage with the projection 70. This movement also carries the pin 62 out the openings 72 This permits the the yoke 52 and consequently the dispensing tube 49. I

A stop 7 3 is also carried by the plate 65.

i This stop is provided with a pin7 l which is designed to enter openings 75 formed in the periphery of the plate 61. The stop is for the purpose of making a primary setting or indication/on the dial and to prevent the handle 63 from being turned farther than "this setting. r i

The pin 69 is controlled by means of leaf-spring 76 and due to the inclined edge of the pin 69, this pin can pass the project on 70 when the projection moves in one directi-on, but it will engage therewith when 1 nozzle. (See Fig. 25.)

a position'that the dispensing tube is at its lowest possible point. The dog 82 is pivoted at the point indicated by the numeral 83in the yoke 8a. which is carried bythe stand ard 30. The dog 82 is provided with a counterweight. 85 which has a normal tendency-to cause the tooth 86 of the dog to move upward in contact with the ratchet .wheel 68;

The. teeth on this ratchet wheel are so cut that the wheel can berotated freely in: one

direction that is the direction used to raise the dispensing tube but on an attempt to 'rotte the wheel in the opposite direction so as to lowerthe same. the tooth 86will en- I with the teeth on the ratchet wheel 68 and prevent such'movement;

Carried by the under face of the plate s a projecting portion 88, which has formed thereina residue passage 89 and a dispensing passage 90. Secured to the lower end of tneprojection 88 is a well 91, which under 11 r This well is for the purpose of permitting the dispensing tube49 to descend till its upper edge substantially on a level with the u oer surface of the late 31. The residue passage 89 1s providedwith a residue valve 92, which is normally open so that fluld,

which overflows the dispensing tube 49 dur-g ing the filling or supplyingof fluid to the dispensing bowl 33, can again flow outthrough the residue pipe-93 and. return to the storage tank. The operation of this residue valve will be explained in detail later.

The passage has located therein a dispensing valve 94. This valve is normally closed and its operation will be explained. in detail later. Carried by the projection 88 and concentric with the passage 90 is a tube 95 to whichis attached a fiexiblerconduit or dispensing hose not shown, and which hose is provided on its outer end with Surrounding the pipes 39 and 93 and located within the housing 80 are U bolts or. clips 96. These bolts or clips support a plate 97. On the plate 97 and withinthe housing 33 is secured a bracket 98. This bracket is provid ed withupwardly extending portions 99 and l00. Through the bracket 98 extend shafts end a cam 108 which has a flattened projec tion 10% extending therefrom. ,Carried by.

the bracket 99 is a stud 105, which carries a pivotally mounted arm or lever'106. The

lever 106 is also provided with a shoulder-107 with which a tooth 108carried by a lever 109 engages. r

The lever 109 is pivotally carried on a stud 110, which also carriedby an extension 99;

The lever'109iis provided with a projection.

111, which carries a pivoted dog 112.v The pivoted dog112 is adapted to engage with the dogs or stops 113 carried by'the racklla. The rack 114: is provided with a bore 115,

mal conditions is always full of liquid.

a dispensing 15 101. and 102. The shaft 101 has secured to its 125 will again enter a which extends entirely therethrough on one face with a slot or groove 116. In, this groove pins 117 carried by the dog 113 extend. The purpose of these pins is to prevent the dog from tipping.

Through the bore 115 extends a bolt 118, which is provided on one end with an eccentrically formed cylindrical head 119. The opposite end of the bolt 118 is screw threaded as at 120 and carries the nut 121. In this way a very fine adjustment of the lugs or stops 113 can be obtained because in order to adjust the stop up or down, it is only necessary to loosen the nut 121 and turn the bolt, keeping the stop 113 against the periphery of the head, and then when the desired adj ustment has been reached, tighten up the nut 121. By this construction not only can a very accurate adjustment be obtained but the necessity of using lock nuts is obviated.

Secured in the upper end 01*. the dispensing tube 49 is a spider 122, which has upwardly extending arms 123. Petween these arms is pivotally secured a locking lever 124, which is substantially L shaped and which is provided on its short arm with a tooth 125. The opposite end of the lever 124 has secured thereto a float 126. This float is held on the arm by means of nuts 127, which nuts have rounded faces so that the float can rock and remain level as it raises and lowers. The spider is provided with a slot 128 through which a bar 129 passes. The bar 129 is provided with a series of notches 130 with which the tooth 125 is designed to engage. The bar 129 is secured to the cap 34 at the point indicated by the numeral 131.

The bar extends downward through the dispensing tube as illustrated in Figs. 1 and 2. This bar is provided with the same number of notches as there are indicating numerals in the bowl. The float normally holds the tooth 125 so that it will engage with the notches as illustrated in Fig. 9 and when in this position there is no possibility of lowering the dispensing tube because the tooth will engage with the lower face 01": a notch and preventthe tube from being lowered.

The only way in which this tube can be released is by supplying a quantity of liquid to the bowl suiticient to reach the top of the dispensing tube when the float will be raised and swing the tooth out of engagement with the notch as illustrated by dotted lines in Fig. 9.

1 The lever 124 will remain in the position illustrated by dotted lines in Fig. 9 just as long as liquid remains in the bowl but upon the bowl being completely drained, the tooth notch. During the setting-up of the tube 49, however, the tooth is enabled to ride out of the notch so that it will be possible to set up the tube but, as before mentioned, the tube cannot be unlocked until an amount of liquid equal to the setup has been supplied to the dispensing bowl. This prevents the operator from makin a set-up for a predetermined quantity and t en only supply part of the liquid to the bowl or arm 135a, which operates the dispensing valve 94.

Secured to the lever 132 and intermediate its ends is one end of a lever 135. The opposite end of this lever is attached to the lever 136. This lever is pivotally mounted on the bracket 100 at the point indicated by the numeral 137. The shaft 102 has acam surface 138 formed on its end. This shaft also carries a cam lever 139, which cam lever 13 provided with an upwardly extending end 140, which contacts with the lever 136. The lever 136 also carries a pin 141, which pin is designed to ride upward and enter the notch 142. lVhen this pin reaches the notch 142, the lock trigger 143 being free to act permits the tooth 144 to slip over the pin 141 and hold it. his holds the residue valve open until such time as one of the stops 113 come in contact with the lever 112. This trips the lever 112 causing it to contact with the in 145 carried by the lock trigger 143, rocking it so as to release the cam lever 136 and permitting the lever 136 together with the levers 132 and 135 again to drop, assuming the position illustrated in Fig. 21 thus closing the dispensing valve 94.

Pivotally carried by the bracket 100 at the point indicated by the numeral 146 is one end of a lever 147. To the opposite end of this lever is attached a rod 148. The opposite end of this rod is attached to the residue valve 92. This residue valve is operated in a manner similar to the dispensing valve 94. Pivotally secured to the lever 14'. is one end of a lever 148a. The opposite end of this lever is pivotally attached to a lever 149, which lever is pivotally carried at one end by the bracket 100 as indicated by the numeral 150.

The bracket 100 also carries a pivoted locking lever 151, which is provided with a notch 152 in which the tooth 153 formed on the lever 149 is adapted to engage. This is for the purpose of holding the residue valve in open position. The lever 135 also carries a pin 154, which pin is designed to contact with the locking lever 151 so as to release the tooth 153 from the notch 152 and permit the levers 147, 148a and 149 to drop thereby closing the residue valve. This closing of the residue valve takes place just before the dispensing valve opens so that there will be no possibility of liquid from the dispensing bowl dispensing commences.

passing intothe residue valve at the time the I The lever'149, is designed to be raised into the position disclosed in Fig. 23 by meansof the cam pawl 155. This cam pawl is moved in the direction indicated by the arrowas the levers descend and is to be moved in the opposite-direction by the flat portion: 104 .car-

ried by thecam103. The shaft 102 or rather the flat portion ofthe cam 138 carried therebyis designed to contact with a sliding bar 156, which moves the levers 106 backward .so as to release the lever 109 permitting it to swing backward and release one of the dogs carried by the rack 114.

On the opposite end: of the shaft 102 is mounted aqlever 157.1 This levercarries on its free end a roller 158. The lever 157 can rotate freely on the shaft 102 and is provided .witha cam lever 159, which contacts with a :pinl carried by the shaft so that the shaft- .can be rotated. A counterweight 161 is designed to bring the shaft 102 to its original position. 5 of the end 1620f the cam 159 coming in-contact with the plate 97 raising it so as to re This shaft is released by reason lease the pin. I Carried by the plate 97 is a bracket 163, which bracket in turn carries, air cylinders 164 and 165. In'these air cylinders arelocated pistons having pistonrods 166 and167.

On top of these pistons are plates 1-68 and 169i 1 The plate 168 is designed to come in contact with the roller 158 and operate the lever 157.

In moving upward the plate 168 comes in contact with a pivoted pawl 170, which pawl is pivoted to a lever 171 carried by the projection 180, which in turn extends from the underside of the plate'97. The lever 170 is pivoted to this projection and has attached thereto a rod 181. The lower end of this rod is attached to. a lever182, which is provided with a hook 183. The lever 182 is pivotally attached to a rod or support 184, which is located inside of the standard 30.

Pivotally secured to the standard 184 is a curved ratchet rack 1 85 which is provided with a pivoted dog 186 and with a locking dog 187. The pivoted dog 186 is designed to be contacted with by the yoke, or a p0:-

tion of the yoke 52, as a set-up is made and over this pin as illustrated in Fig. ,19'and prevent the ratchet from dropping. Atthis time the projection. 190 passes through the hook 183 and upon raising of the cam lever 170 and lever 171, the locking lever 187 will he raised andfreed from the pin permit-ting. it to again drop and assume the position shown, in Fig. 18; Nhen in this position, the tooth 48 of the dog 47 will be in position to engage with the ratchet teeth and thus prevent the pump from beingoperated until, a new set-up has again been made.

It will be noted from Fig. 18 that theicam pawl 186will contact or be operated bythe yoke 52 only while the yoke is being raised; that is, when a setupisbeing made, buton the downwardlmovement this pawl can free- 1y swing inward and permit the yoke to pass by. This effectually prevents any liquid from being-added to the dispensing bowl after dis; pensing has commenced vbecause then the pump is locked and remains locked until such time as a new setup is made.

T Carried bythe shaft 102 is alever 191, which is provided with a pin192, which pin" is designed to contact with a cam'lever 193, i which ispivotally secured to the bracket at the point indicated by the numeral 194. At-

tached to the cam lever 193'isv one end of a.

lever 195, the .opposite end of this leverdbeintermediate its ends atthe point indicated by the numeralfil97. The end 1980f the lever 196 is bifurcated and engages with a collar 199fcarried by a shaft 200. I This shaft is provided with a gear 201. which meshes with a gear .202 carried by the shaft 203. The shaft 203 also carries a gear 204, which mesheswith the rack :114. i

The shaft 200 also carries-a clutch mem-. her 205 which is designedto engage with a clutch member- 206 carried by'ashaft 207. Thisshaft in turn leads to a recording device 208. This recording device is not illustrated in detail because it forms no part of the present invention. r I I The shaft 207 is provided with a'ratchet tooth wheel 209 with which a pawl 210 carriedby a shaft 211 engages. This is to pre-- vent the recording device from being operated in a reverse direction. The shaft 211. also carries a brake band 212,. which operates around a brake drum-213 and which is designed to prevent the recording device from being, operated too fast. I -Garried by'the plate 97 is'a bra'cket 214 to which ispivotally secured one end of a lever -215.- The opposite end of this lever is I provided with a Weight 216. The lever 215 is attached intermediateitsendsat the point indicated by the numeral 217 to the lever 196. The purpose of this counter weight is to hold the clutch member 205 either in or out ofengagement with the clutch member 206. Pivotally carried by the platei97 .at the point indicated by the numeral218 is a lever- 219. The free .end of this. lever is provided with a pin 220 with which the inclined edge 221 of a cam plate 222 carried by the'rack 56is designed to contact. The lever 219 is providedwith an extension 223, which carries a-pivoted dog 224. The plate 180has pivoted thereto one'end of a latch lever 225."

This latch lever provided with a notch 226,: which' is designed to receive the pin 227 carwhich is provided with a roller 232.

ried by .the lever v219. The purpose of the lever 219 is to prevent the dispensing valve mechanism from being operated when the dispensing tube is in its lowest position because as this tube together with the rack 56 approaches the lowest position, the inclined face 221 of the cam plate contacts with the pin 220 forcing the lever 19 to the right. This brings the pin 227 in position so that the locking lever can drop down thereby permitting the pin 227 to enter the notch This movement also brings the pivoted dog 224 over the plate 168 carried by the rod 166 and prevents this rod and plate from moving up sufficiently high to operate the dis pensing valve. When a new set-up is made, the raising of the rack 56 also raises the pivoted dog 228, one arm of which then contacts with the latch lever 225 raising it and permitting the lever 219 to assume the position shown in Fig. 7, thus removing the pivoted dog 224 out of the path of travel of the plate 168. It will be noted that the dog 228 is substantially L shaped and is pivoted at the point indicated by the numeral 229. A pin 230 also carried by the rack 56 is designed to contact with one arm of the dog 228 and prevents it from swinging in one direction, that is while the rack is being raised and while it is in contact with the locking lever 225, but on the descent of the rack 56, this dog can swing so that it will pass the locking lever without operating it.

Carried by the shaft 101 is a lever 231, This roller is designed to be contacted with by the plate 169 and is for the purpose of opening the residue valve. The shaft 101 also carries a cam lever 233. This lever is provided with a pin 234, which is designed to enter the notch 235 formed in the lever 236. This lever is pivotally carried by the bracket 99 so that when the lever 231 and lever are raised, the pin will enter this notch and hold 3 these two levers in elevated position thereby looking the clutch shifting mechanism and holding the residue valve in open position.

The lever 236 is provided with an outturned end 237, which is adapted to be contacted with by the pivoted dog 238 carried by the rack 56. This dog, as will be noted from Fig. 7, is free to swing in one direction. that is as the rack 56 is lowered, but when making a new set-up the one arm of this will contact 7 .1 with the pin 239 while the other arm contacts with the projection 237 of the lever 236 thus raising it and releasing the pin 234 thereby permitting the levers 231 and 233 to drop by gravity and assume the position illustrated in Fig. 7. In this way the residue valve operating mechanism is released in such a manner that upon the operation of the dispensing valve mechanism, the residue valve will automatically close and permit the dispensing of Ithe liquid to take place. However after dispensing and clearing of the mechanism, as will be hereinafter described, the residue valve is locked in open position so that it will be impossible to supply liquid to the bowl and drain it out through the dispensing valve because this valve is then in such position that it cannot be opened. In fact the dispensing valve is so arranged that it can at no time be opened until a set-up of at least one quantity unit has been made and that quantity of liquid supplied to the bowl.

Within the casing 30 is located an air pump 240, which. is provided with a piston rod 241. This piston rod is attached to the pump lever 44. The purpose of the air pump is to supply air to the reservoir 242. Air from the reservoir 242 is admitted to the air cylinder 164 through pipes 243 and 244. The passage of air through these pipes or conduits is controlled by means of a valve 245, which is provided with a button 246 so that the valve can be readily opened. This con- ;s the dispensing valve.

Air is similarly admitted from the reservoir 242 to the cylinder 165 by means of a valve 247, which controls the passage of air and which valves are also operated by means of a pushbutton or similar device 248. This controls the residue release and is used when it is desired to drain the bowl of liquid without any dispensing taking place. It is used in connection ith our device for the issuance of miscellaneous sales tickets or for drain.- ing the bowl after partof its contents have been dispensed preparatory to making a new set-up.

The operation of our device is as follows: After the installation has been properly made, the first step is to make a set-up in the dispensing bowl. This is done by moving the gauge 73 around on the indicating plate or dial 6.1 to the desired number of quantity unlts. The handle 63 is then pulled outward so as to release the pin 62 from one of the openings 72. This exerts a pull on the shaft 66 and draws the ratchet wheel 68 forward so that the dog 69 carried thereby can contact with the pin. 70 carried by the gear 57. (See Fig. 13.) The handle is then turned until the pin 62 contacts with the gauge 73 when the handle is released so that the pin 62 can enter the proper recess 72 on the plate 61. During the rotation of the gear 57 the pin carried thereby has moved away from the inclined face of the projection 81 releasing the pawl or dog 82 and permitting the tooth 86 to engage with the ratchet teeth on the ratchet wheel 68. When the handle is thus released, the dog 69 is no longer in contact with the pin 70 but even if the handle is again pulled out, it cannot be moved in a retrograde direction being prevented from doing so by means of engagement of the pawl or dog 82 with the ratchet wheel.

The turning of the gear 57 raises the rack 561and together with it the yoke 52 and con sequently the dispensing tube. During the raising of the-yoke 52 it contacts with the pivoted dog 186 carried by the ratchet 185 shaft will release the lever 106 by reason of .thefiat surface 104: carried by the cam 103 so that the ratchet will, assume the position shown in Fig. 19 thus releasing the pump, for

act-ion. V

During this time the float 126 and lever 124 have also been raised simultaneously with the dispensing tube 49 permitting the tooth to enter one ofthe recesses in the bar 129.

This bar being secured to the cap or top 34 of the dispensing tube prevents any lowering of the dispensing tube while the tooth 125 is wit-hinone of the notches 130. The pump is then operated so as to supply liquid through the supply tube 39 to the dispensing bowl. This pumping is continued until liquid supplied commences to overflow the upper edge of thedispensing tube atwhich time the float 126 will haveraised so as to automatically unlock the dispensing tube, 1t beingunderstood, of course, that during all of this time the residue valve 92 is open so that surplus liquid can return to thestorage tank through the pipe 93. f

Then the cani lever 193 is movedso that the clutch members are disengaged, then upon the locking ofthe device, when the printing of aticlret occurs,the pin 233a contacts with the cam lever-193 forcing the end 193a thereoi downward sothat the pin 192 will contact with the camlever. This pre vent-s any manipulation whatever'of the serving or dispensing valve during the time that the device is in this locked position. Consequently even it fluid should be supplied to the bowl while the dispensing valve is locked ii -open position after. a ticket has been printied, there can be no possibility of opening the serving valveso that no liquid whatever can enter the dispensing nozzle and conduit. It will,'there"ore, be seen thatunless a set-up is made for a predetermined quantity of liquid in the bowl, no liquid can pass out through the serving nozzle.

The movementoi the lever 106 also permits the release of one of the stops carried by the rack 114; The action of the plate 168 on the roller 158 will continue aslong as the valve 245 is held open but the shaft 1021will immediately return. to its original position due to the fact that the end 162 of the cam lever 15.9 has contacted with the plate 97 i raising this lever so as to release the pin 160 The shaft 102 is then returned to its original position by the counterweighted lever 161 thus releasing the lever 1 06 and permitting it toswing back so as to lock the lever 109.

i his is done before the next succeeding stop reachesthe dog-112. Therefore, it will be seen that the dispensingtahes place only unit by unit. If it is desired to drainthe bowl completely before dispensing all ofthe liquid; -Ltherein, the valve 2&8 is operated; This.

causes the plate 169 to move upward, contact with the roller 232 and operate the levers 231 and233. I, 1

This in turn operates the shaft 101, which the inclined face 221 of the cam plate 222 contacts with the pin 220 swinging the lever 219 over so that the pivoted dog-224 will-be in the path of travel of the plate 168. The pin 22'? enters the notch 226 permitting the locking lever 236 to drop holding'the lever 219 so that it can not s'winglback. During this downward movement the dogs 228 and 238 have passed beneath the levers 225 and 236 being free to swing so that this-movement can take place. 1 During all this time the residue valve-is, held, open so that the liquid can drain back into the storage reservoir. r c

, Then upon the commencement of the next setup the dogs 228 and 238 will contact with the endsoi' the levers 225 and 226 respectively, raising them and releasing the levers 219 and 231 and 233 so that they caniassume 56., that has contacted with the inclined face of the lug'81 releasing-the dog from the ratchet wheel 68. This permits the handle 63 to be brought back to its starting position and ready for a new set-up.

If the position of the projections or dogs 1 113 carried by the rack 11% is such that an accurate unit quantity is not obtained, the;

stop can be raised and lowered by loosening I the nutv 121 and turning the eccentric head 119 of the bolt 118 in either direction so that the stop can be raised and lowered as desired to get the proper unit quantity after which the nut is again tightened. In'this way each of the stops can be. adjusted separately because we have found that/in transparent bowls, which are usually made of glass, it 1 isimpossible" to maintain a uniform diameter throughout. Therefore, ad ustmentoit the stops must be provided for.

Having fully described our invention, what, we clalm' is I 1. A liquid dispensing device comprising a transparent bowl, means for supplying liquid to said bowl, a vertically movable dispensing tube extending into said bowl, means I. for raising said tube for predetern'iining the amount of liquid retained in said bowl, means for lowering said tube step by step thereby dispensing liquid unit by unit, and means for preventing the lowering of said dispensing l tube unless the amountof liquid predetermined by the set-up of said dispensing tube has been supplied to the bowl.

2. A liquid dispensing device comprising a transparent bowl, means for supplying l liquid to said bowl, means for predetermining the amount of liquid to be retained in said bowl, means for withdrawing liquid from said bowl, and means located in said dispensing bowl for preventing the withdrawal of liquid therefrom unless the quantity of liquid predetermined to be retained therein has been supplied to said bowl.

3. A liquid dispensing device comprising a transparent bowl, means for supplying liquid to said bowl. a vertically movable dispensing tube extending into said bowl, means for raising said tube for predetermining the amount of liquid retained in said bowl, means for lowering said tube step by step, and means located in said dispensing bowl for preventing the withdrawal of liquid therefrom unless the quantity of liquid predetermined to be retained therein has been supplied to said bowl.

4. A liquid dispensing device comprising a transparent bowl, means for supplying liquid to said bowl, a vertically movable dispensing tube extending into said bowl, means for raising said tube for predetermining the amount of liquid retained in said bowl, means for lowering said tube step by step, and float control means for preventing the lowering of said dispensing tube unless the amount of liquid predetermined by the set-up of said dispensing tube has been supplied to the bowl. 5. A liquid dispensing device comprising a transparent bowl, means for supplying liquid. to said bowl, a vertically movable disd pensing tube extending into said bowl, means for ra sing said tube for predetermining the amount of liquid retained in said bowl, means for lowering said tube step by step, and float control means located in said dispensing bowl for preventing the withdrawal of liquid therefrom unless the quantity of liquid predetermined to be retained there n has been supplied to said bowl.

6. A liquid dispensing device comprising a transparent bowl, means for supplying liquid to said bowl, means for predetermining the amount of liquid to be retained in said bowl.

means for withdrawing liquid from said bowl unit by unit, means for preventing withdrawal of liquid from said bowl unless the G5 quantity predetermined to be retained in said bowl has been supplied thereto, and means for preventing the supply of additional liquid to said bowl after withdrawal has commenced.

7. A liquid dispensing device comprising a transparent bowl, means for supplying liquid to said bowl, a vertically movable dispensing tube extending into said bowl, means for raising said tube for predetermining the amount of liquid retained in said bowl, means for lowering said tube step by step, means for preventing the lowering of said dispensing tube unless the amountof liquid predetermined by the set-up of said dispensing tube has been supplied to the bowl, and means for preventing the supply of additional liquid to said bowl after withdrawal has commenced.

8. A liquid dispensing device comprising a transparent bowl, a pump for supplying liquid to said bowl, a vertically movable dispensing tube extending into said bowl, means for raising said dispensing tube in said bowl for predetermining the amount of liquid to be retained in said bowl, means for lowering said dispensing tube step by step, means for preventing the lowering of said dispensing tube unless the amount of liquid predetermined by the set-up has been supplied to said bowl, and means for automatically locking said pump against operation before a set-up has been made, said means also looking the pump against operation simultaneously with the commencement of dispensing.

9. A liquid dispensing device comprising a transparent bowl, means for supplying liquid to said bowl, a vertically movable dispensing tube extending into said bowl, means for raising said tube in said bowl for predetermining the amount of liquid retained in said bowl, means for locking said tube raising means so as to prevent retrograde movement thereof after a set-up has been started, means for lowering said tube step by step for dispensing liquid from the bowl unit by unit, and means for preventing the lowering of the dispensing tube unless the amount of liquid predetermined by the set-up of the dispensing tube has been supplied to the bowl.

10. A liquid dispensing device comprising a transparent bowl, means for supplying liquid to said bowl, means for predetermining the amount of liquid to be retained in said bowl, means for withdrawing liquid from said bowl, means for preventing the withdrawal of liquid from said bowl unless the quantity predetermined to be retained in said bowl has been supplied thereto, and means for preventing the supplying of liquid to said bowl until a predetermination of liquid to be retained in said bowl has been made.

11. A liquid dispensing device comprising a transparent bowl, means for supplying liquid to said bowl, a vertically movable dispensing tube extending into said bowl, means for raising said tube for predeterminingthe amount of liquid retained in said bowl, means for lowering said tube step by step, means for preventing the lowering of said dispensing tube unless the amount of liquid predetermined by the set-up of said dispensing tube. has been supplied to the bowl, and means for preventing the supplying of liquid to said" bowl until a predetermination of liquid to be retained in said bowl has been made.

12. A liquid dispensing device comprising a transparent bowl, means for. supplying liquid tosaid bowl, means for predetermining the amount of liquid to be retained in said bowl, means for withdrawing, liquid from said bowl, means located in said-dispensing bowlfor preventing the withdrawal of liquid therefrom unless the'quantity of liquid pre determined to be retained therein has been supplied to said bowl, and means for preventing the supplying of liquid to said bowl until apredetermination of liquid to be retained in said bowl has been made.

13. A liquid dispensingdevice comprising .a transparent bowl, means for supplying liquid to said bowl, means for predetermining the amont of'liquid to be retained in said bowl, means for. withdrawing liquid from said bowl, float control means for preventing the withdrawal of liquid from said bowl unless the quantity predetermined to be retained in said bowl has been supplied thereto, and means for preventingthe supplying of liquid to said bowl until a predetermination of liq uid to be retained in said bowl has been made.

i 14. A liquid dispensing device comprising a transparent bowl,'means for supplying liquid to said bowl,'a verticallv movable dispensing tube extending into said bowl, means for raising said tube for predetermining the amount of liquid retained in said bowl, means for lowering said tube step by step. means for preventing the lowering of said dispensing tube unless the amount of liquid predetermined by the set-up of said dispensing tube has been supplied to the bowl, means for preventing the supply of additional liquid to said bowl after withdrawal has commenced, said means also preventing the supply of liquid to said bowl until a predetermination of liquid to be retained therein has been made. 15. A liquid dispensing device comprising a transparent bowl, means for supplying liquid to said bowl, a vertically moving yoke located belowsa'idbowl, adispensing tube carried by said yoke and extending into said bowl, means for raising said yoke and tube simultaneously, a rack carriedby said yoke and movable therewith, spaced apart bolts having eccentric cylindrical heads carried by said rack, dogs having slots therein carried by said rack and bolts and contacting with said heads whereby said dogs can be adjusted up andidown as said heads are turned.

16. A liquid dispensing device comprising a transparent bowl, means 'for supplying liquid to said bowl, a vertically moving yoke located below said bowl, a dispensing tube carried by said yoke and extendinginto said bowl, means for raising said yoke and tube simultaneously, :a rack carried by said yoke and movable therewith, spacedflapart bolts having eccentric cylindrical heads carried by said rack, dogs having slots therein carried by said rack and contacting with the heads of said bolts whereby saiddogs canbe adjusted up and down onv said rack as said bolt heads are turned, and pins carried by saiddogs and projecting into slots formed in said rack for preventing said dogs from tipping.

Intestimony whereof we have affixed our GEORGES. cox.

- HARRY J. ALMSTEDT.

signatures. 

